A method uses retrofitably-attachable pre-formed shell to cover exposed areas of existing stamped/formed chrome or painted truck bumpers, providing a unique re-useable decorative/protective plastic shell cover, the edges of which are tucked under the existing trim pieces of the bumper as a main attachment mechanism. The formed shells can be used to cover existing minor damage on the bumper. Light-passing images can be incorporated on the bumper shells, and backlit without changes to the bumper or deviation from the original surface profile of the bumper. Methods of forming the shells include vacuum forming, and include forming a raised perimeter guide, allowing the molded parts to be trimmed using a rotary cutting tool that follows the perimeter guide, thus reducing capital investment and tooling costs.
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12. A method of trimming a shell component comprising:
using a vacuum-forming tool to form a vacuum-molded component that includes a shell and a raised tool guide extending around a perimeter of the shell, the raised tool guide being at a specific distance from a desired trim edge of the shell; and
cutting the shell from the component using a cutting tool that slideably engages the raised tool guide as the cutting tool is moved around the shell.
18. A method of repair comprising:
forming a sheet of constant thickness into a three-dimensionally concavely-shaped shell with inner surface replicating a mating show surface of a vehicle component and with an outer surface aesthetically treated to provide a customized appearance different than the mating show surface of the vehicle component; and
attaching the shell to the vehicle component to thus cover the mating show surface of the vehicle component.
1. A method of repair comprising:
attaching a pre-formed polymeric shell to a formed vehicle bumper beam to cover a show surface of the vehicle bumper beam, the pre-formed polymeric shell having a non-planar three-dimensional internal surface that generally matches an original undamaged shape of the show surface and having sufficient rigidity to maintain a shape of the polymeric shell without full contact against the show surface of the formed vehicle bumper beam.
14. A method of customizing a bumper on a vehicle comprising:
providing a vehicle bumper beam with a convex outer surface;
vacuum-forming a molded component from a sheet of constant thickness material to form a shell having walls of similar thickness but with some stretched wall thicknesses and having a shaped inner surface matching a portion of the convex outer surface;
aesthetically treating an outer surface of the shell to form an aesthetic outer surface; and
attaching the molded component to the vehicle bumper beam with the aesthetic outer surface covering a juxtaposed mating portion of the convex outer surface of the vehicle bumper beam, to thus give the vehicle a new customized bumper appearance.
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This application is a divisional of U.S. patent application Ser. No. 14/336,319, filed on Jul. 21, 2014, entitled TRUCK BUMPER SHELL AND METHOD OF RETROFIT INSTALLATION, issued as U.S. Pat. No. 9,487,170, which claims the benefit of U.S. Provisional Application Ser. No. 61/856,882, filed Jul. 22, 2013, entitled TRUCK BUMPER SKIN SYSTEM AND METHOD OF REPAIR, the entire contents of which are incorporated herein in their entirety.
The present invention relates to pre-formed thin-walled members, or bumper shells, used to cover vehicle bumpers (such as truck bumpers) having new or damaged show surfaces, and more particularly relates to a bumper covering system that adds value in terms of appearance, customizability, novelty and curb appeal; protects the bumper from minor damage, reduces repair expense, improves ease of repair; and that provides optional new lighting and visual effects.
Bumpers used on most body-on-chassis trucks have traditionally been stamped steel, either chromed or painted, serving both decorative/styling and impact protection functions. The manufacturing process of stamping steel and the fact the stamping needs to provide an impact function places many styling restraints on these types of bumpers. Additional molded plastic trim pieces that cover portions of the stamping are used to provide some styling differentiation or function, such as a step pad. These trim pieces are usually molded-in-color black and textured and attached to the bumper with integrated snap fits and clips (see
Improvements are desired for several reasons. For example, bumpers quickly become worn or damaged, yet it is excessively expensive or impossible to have them repaired, such that truck owners do not get them repaired. This happens despite the fact that many truck owners are very proud of their trucks and want the truck to be a show piece (even after heavy use). Still further, many truck owners want to be able to customize their trucks, both to make the truck unique and customized to their personality, but also often to “make a statement” with their truck. However, existing bumper covering systems are generally either too expensive to allow the truck owner to make the truck unique, and/or do not cover existing damage. For example, full fascia systems require expensive tooling, resulting in high cost of amortization and subsequent painting. Although chrome bumpers cannot be repaired to their original state, small dents/dings can be pounded out, ground down, and the bumper painted. However, this repair is very time consuming and costly and the paint is easily scratched off, with the underlying chrome showing through. Bumpers can also be vinyl wrapped. However, the thin vinyl conforms to the surface of the bumper, thus any existing damage would read through to the outer surface. The reader's attention is directed to the discussion of prior art bumpers illustrated in
In one aspect of the present invention, a method of repair comprises attaching a pre-formed polymeric shell to a formed vehicle bumper beam to cover a show surface of the vehicle bumper beam, the pre-formed polymeric shell having a non-planar three-dimensional internal surface that generally matches an original undamaged shape of the show surface and having sufficient rigidity to maintain a shape of the polymeric shell without full contact against the show surface of the formed vehicle bumper beam.
In another aspect of the present invention, a method of trimming a shell component comprises using a vacuum-forming tool to form a vacuum-molded component that includes a shell and a raised tool guide extending around a perimeter of the shell, the raised tool guide being at a specific distance from a desired trim edge of the shell; and cutting the shell from the component using a cutting tool that slideably engages the raised tool guide as the cutting tool is moved around the shell.
In another aspect of the present invention, a method of customizing a bumper on a vehicle comprises providing a vehicle bumper beam with a convex outer surface; vacuum-forming a molded component from a sheet of constant thickness material to form a shell having walls of similar thickness but with some stretched wall thicknesses and having a shaped inner surface matching a portion of the convex outer surface; aesthetically treating an outer surface of the shell to form an aesthetic outer surface; and attaching the molded component to the vehicle bumper beam with the aesthetic outer surface covering a juxtaposed mating portion of the convex outer surface of the vehicle bumper beam, to thus give the vehicle a new customized bumper appearance.
In another aspect of the present invention, a method of repair comprises forming a sheet of constant thickness into a three-dimensionally concavely-shaped shell with inner surface replicating a mating show surface of a vehicle component and with an outer surface aesthetically treated to provide a customized appearance different than the mating show surface of the vehicle component; and attaching the shell to the vehicle component to thus cover the mating show surface of the vehicle component.
These and other aspects, objects, and features of the present invention will be understood and appreciated by those skilled in the art upon studying the following specification, claims, and appended drawings.
The bumper system 25 is intended to illustrate a variety of existing prior art bumper systems, and it will be apparent to persons skilled in this art that the present innovation is not believed to be limited to only being used with the specifically illustrated bumper system nor the specifically illustrated bumper components shown. For example,
Because of the high cost of tooling the stamped bumpers, OEMs (original equipment manufacturers, such as automotive companies that assemble and sell vehicles) do “styling refreshments” as a truck model ages. Sometimes, the styling refreshments are done because consumers are giving the vehicles poor marks. However, the styling refreshments do not usually include the bumpers, because of high cost. In addition, the fact that the bumper shape/style is directly linked to the impact and structural integrity of the bumper system is also a deterrent to providing many options or model “freshening” due to the additional engineering and validation costs. Specifically, any structural change to a bumper system may require validation testing, which is expensive, time consuming, and a significant event that adds time delays and high cost to bringing new/refreshed models to market.
In contrast, it is noted that the bumpers used on most uni-body passenger vehicles are typically constructed of a very stiff and strong tubular reinforcement or impact bar made from UHSS or Aluminum. A plastic or foam isolator or energy absorber is typically used on the face of the impact bar to absorb low speed impacts and prevent permanent damage. These bumper systems are completely covered by a mostly decorative fascia or cover molded from a flexible/elastomeric material, such as TPO (thermoplastic olefin) or RRIM (reinforced reaction injection molded part) so as to be resilient to low speed impacts. These decorative fascias can be sculpted by designers independent of the impact bar shape to enhance the styling and aerodynamics of the vehicle and have negligible influence on impact performance. Therefore, when it comes time to refresh or differentiate the look of the vehicle, these fascias are usually one of the first things changed . . . because of the significant effect on the style of the vehicle, the relatively low cost of re-tooling, and the minimal re-engineering or validation (since the bumper beam under the fascia can remain the same).
Current options available to truck owners that would like to restyle/customize the look of their truck bumper and/or add protection are usually either by: 1) Replacing the entire bumper with an aftermarket bumper (see
A bumper shell 50 (also sometimes called a “skin” or “shell covering” or “shell component” herein) is a molded plastic piece of semi-rigid resilient-but-stiff component designed to form fit over (or “glove onto”) the exposed outer steel surface of a truck bumper. The shells 50 at right and left ends of the bumper are mirror images of each other, such that a description of shells 50 in
The illustrated shell 50 is a vacuum-formed thin-walled form-fit decorative component, referred to as a “shell” herein due to is self-supporting resilient-but-relatively-rigid shape. The shell 50 includes a front vertical wall portion 51, a wrapped-end portion 52, and a reversely-formed lower flange 53 extending under portions 51-52. Its upper edge 54 and inboard edge 55 include outwardly-extending integrally-formed attachment flanges 56 and/or long attachment tabs 57 shaped to tuck under the free edges 31A-33A, 31B-33B discussed above (
The shell 50 has a concavely-shaped inner surface 58 that mateably engages and generally matches a curved show surface of the associated existing bumper beam (30). It is noted that vacuum-forming processes and tooling are particularly adapted to manufacture shells 50 patterned after the existing bumper beam 30 at low cost, even with low volume production runs. The shell 50 further includes an aesthetically treated outer surface 59 that aesthetically covers the underlying curved show surface of the beam 30. The attachments 56-57 are adapted to attach the shell 50 to the existing vehicle bumper beam 30 via the flanges 56/tabs 57 tucking under the free edge of the existing trim accessories 31-33. As noted above, additional attachments can be used if necessary to securely hold the shell(s) 50 on the beam (30), such as mechanical or adhesion based attachments.
Rather than one large piece that covers the entire bumper like current aftermarket fascia products, which also would require very large tools and molding presses, the present bumper shell innovation includes combining multiple shells 50, 50C to cover a bumper beam (see
Multi-piece shell coverings of the present invention provide additional advantages. By being separated into separate pieces, the material is also allowed to move during expansion and contraction due to temperature changes without distortion (which can be a problem on current full length fascia alternatives). Also, the multi-piece designs present a “natural aesthetic” for many truck bumper designs, because the OEM's (original equipment manufacturer's) style applies a plastic trim through the middle of the bumper, making a natural left and right half. Notably, some existing bumpers have a chromed or painted steel bumper beam that is continuous from left to right, so there is no natural break. (See
Intersection joint design between a bumper shell and existing trim: A unique feature of the present bumper shell 50 (and 50C) is the offset perimeter flanges 56 and tabs 57, (like those shown in
In order to create a “solid feel” and “dampened sound” rather than a hollow “plasticky” sound and feel inherent with plastic covers, the back side of the present bumper shell's inner surface 58 is coated with a soft elastomer layer 62, such as polyurethane (TPU) or Latex. The soft coating can be relatively smooth or “ribbed” (see
A preferred method is to form a ribbed pattern in the coating layer's (62) bumper-engaging interface by wiping it with a flexible squeegee that has a ribbed/toothed edge when the coating has just cured enough to begin to maintain some shape. When the completed bumper shell is applied to the bumper, the thin raised ribs bend over/compress where the shell first comes in contact with the bumper, thus more able to adjust for gap variation, which is particularly important if the bumper has been distorted/damaged. The special coating formulation is developed such that when dry, the coating surface remains slightly “tacky”, such that when the bumper shell is applied to the bumper, it will “cling” to it. The additional and novel “clinging” affect provided by the soft coating greatly aids in securing the bumper shell to the entire bumper surface. However, as contrasted by an adhesive that is more permanent, the soft coating allows the shell 50,50C to be repositioned and/or removed. This elastomeric lining/interface also provides the electro-luminescent panel light source (described in next section) additional protection from moisture and abrasion. Raised/projected areas 60 (
In addition, when the manufacturing method is vacuum forming, a new technique has been developed to eliminate the need for additional trim fixtures, set up fees, and high charge rates for CNC trimming operations generally required for trimming out vacuum formed parts. Thus, this novel concept saves significant capital and piece cost expense. It comprises forming a raised area, or shoulder, into the tool around the perimeter of the part to be vacuum-formed. A blank flat sheet is heated to a desired softened temperature suitable for vacuum forming by drawing a vacuum under the blank, to draw it down onto the surface of the tool 70. See
By way of example, as shown in
It is noted that a variety of different guides or ridge-followers can be used and still be within a scope of the present invention. The illustrated special guide is a cylindrical bushing or follower used on the rotating cutting tool or router. It is unusual since it is positioned to engage a raised ridge located above the cutter (as opposed to known routers where a guide is below the router cutter). The illustrated router guide is shaped to be maintained in contact with this raised perimeter shoulder 71 during the trimming operation. The illustrated guide bushing is fabricated with a specific diameter such that the cut for the bumper shell edge is always a specific/constant distance from the raised perimeter guide. The cutting bit is extended through a hole in the center of the guide, and the guide is attached securely to the rotating cutting tool/router. The trim operation should always occur in a clockwise direction around the part, so the direction of blade rotation helps keep the guide bushing against the shoulder, thus minimizing any tendency for the blade to wander away from its intended position.
With this method, the need for an additional vacuum fixture is eliminated as is the need for expensive CNC routing of the part, saving a substantial amount of money, especially for lower run quantities. The trim guide is trimmed off with the rest of the blank and sent to a recycler. For larger run quantities, CNC routing is advised for trimming out the part. For even higher volumes, when injection molding is used, the part does not require trimming.
It is contemplated that the outer surface 59 of the present innovative shells 50 may be decorated in many different ways with an outer surface covering 63 (
A preferred and novel method for low volume applications where a backlit image/logo is desired on the bumper shell is the wrapped vinyl method on a shell 50 made using a clear bumper shell material. The window area where the backlighting is desired can either be pre-cut into the film before application to the shell and held in place with transfer tape until application, or cut out of the film after application and removed from the film in the region to be backlit when the design shapes are simple, such as circular or rectangular.
Images/logos for backlighting can be achieved using several methods. For example, they can be made by printing (or other indicia 66, see
The image area (i.e. window 67) can be then backlit via several available methods, including electro-luminescent (EL) panel/tape 68 (
From the basic new concepts noted above, there are at least four major advancements from current available options for truck bumpers. These include 1) providing a form-fit decorative shell over a stamped/formed bumper (including retrofittable attachment), 2) providing a carrier/lens for adding lighted effects, 3) providing protection against rock impingement, small “dings”, and rust, (as well as a method of retrofittably covering same without large expense), and 4) providing a relatively inexpensive repair to an already damaged bumper.
More specifically in regard to the subject of providing a form-fit decorative shell over a stamped bumper, the truck bumper shells of the present invention will allow the truck owner to overcome the styling constraints on the stamped steel bumpers and limitations of alternative solutions by changing the surface appearance (texture, pattern, color, and shape) of the exposed steel portions through the application of decorative films, customized paint, molded-in colorants/patterns, printed patterns, or mold-behind graphics on to the thin (<3 mm) plastic bumper shell. As explained, the bumper shells can be molded to exactly match the contours of the existing bumper. However, additional geometric styling freedom is possible through localized geometric changes to the molding while still being supported by the steel structure of the bumper and not degrading its impact performance as per the basic concept. A novel concept has been developed for attaching the shell to the bumper by tucking the flanges under the existing trim pieces and coating the backside of the bumper shell with a soft and tacky coating, such that it “clings” to the bumper surface and/or by adhesive foam tape. Through these means, no modification of the bumper is required. The bumper shells can be easily applied (and removed), if desired, without damaging the bumper cover or underlying bumper, thus maintaining a pristine bumper underneath.
Examples of the decorative opportunities for restyling the truck are shown in
In regard to providing a carrier/lens for adding lighted effects, the truck bumper shells can be molded from a transparent polymeric material, such as PET-G, Acrylic, or Polycarbonate using either the vacuum forming or injection molding process to give the shell its shape and thickness. See
Contrastingly, the present invention applies a technology called electro-luminescence (see
Notably, most state highway laws require that rearward facing lights on the vehicle be diffused and under a particular illumination (candle) power. Since the generated light of the EL panel is evenly diffused across the surface of the panel, it does not create “hot spots” of light behind the image to be backlit like a bulb or LED, so they meet this requirement without the addition of a diffusing lens. Still further, the light-passing window can form a pattern not unlike a rear light (see
The EL panel noted above is typically adhered to the backside of the bumper shell by taping (or other bonding means) around the perimeter in the area where the backlighting is desired, such as where a printed vinyl film or other semi-transparent image will be placed/created on the bumper shell. The size of the EL panel can be pre-specified from the manufacturer to fit the desired backlit area or trimmed (requiring re-sealing of the cut edges with protective tape) to the desired shape/size.
By using the present approach with EL panel, images of almost any kind, such as company logos, licensed logos from others, words/messages, etc. can be either printed on vinyl film and applied to the outside surface of the bumper shell or airbrushed directly on to the bumper shell, thus making a very impressive backlit mobile advertising space. In most cases the EL panel will have a white light emitted with the color of the image coming from what is used on the vinyl sticker to create the image. However, EL panels that emit colors other than white may also be used. In some states, the colors of light on the rear of the vehicle are limited to red, amber, or white.
The EL panel is charged through a connection to the tail lamp wiring of the vehicle. This can be done in many different ways, depending on the desire of the truck owner. For instance, it can be tied in to the running lamps, so they illuminate when the headlights or parking lights are turned on. They can also be tied in with the blinkers or stop lamps, illuminating when either of those conditions occurs. The wires can be connected by splicing in along the OEM wire harness to the tail lamps or connected to the trailer light receptacle. In each case, a small transformer is required to establish the correct voltage and amperage to the EL panel and to convert the current from DC to AC.
Once the image is applied to the transparent bumper shell, the rest of the bumper shell is either covered with a decorative film, with a cut-out for the image or painted after masking the image. If using decorative film, the cut-out for the back-lit image can either be a simple perimeter, such as a square, rectangle, circle, or oval around the image or the cut-out can be CNC printed/cut out of the decorative film to intermingle with the logo, such as the background between letters, etc. In this case, the film is positioned in the printer with specific datum points, the printed vinyl logo/image can be placed in correct position on the backside of the decorative film, and then the film plus logo is applied in correct position according to the datums on the bumper shell. Another method is to apply the logo/image to the shell first, over the backlit region, and then applying the decorative film by first carefully positioning the logo cut-out over the logo and smoothing out the film from the center of the logo to the perimeter of the bumper shell. Still another method is to cut out the wrapped film on the bumper shell in the desired shape/size of window, then carefully place the logo image “sticker” over the cut out area with approximately ⅛ inch overlap at the edges to account for placement variation and thermal growth effects.
It is believed that this additional illumination of the rear of the truck can provide additional visible warning to vehicles coming up from behind for increased safety, especially at night or in bad weather conditions.
Although it is feasible to backlight a directly-applied decorative film to the bumper, this is not preferred since a thickness of the panel, and the wire route would visibly distort the film and would not be as well protected from damage.
In another situation, where raised/projected areas of the bumper shell are desired, there is room to add LED lights behind the projected area and backfilled/potted with elastomer (similar to the bumperet) for another lighted look. These lights can be tied in to light at the same or different time as the EL panel, such as for blinkers or additional stop lamps (see
The present innovation also provides protection against rock impingement, small “dings”, and rust. It does so much like protective covers are used on such things as mobile phones and other electronic devices to provide the expensive device additional protection from scratches, impacts, moisture, etc. The illustrated present bumper shells are designed to protect a new bumper to help maintain it in pristine condition. Truck bumpers are very expensive to replace, costing between $500-$1,200 for OEM replacement parts. Steel is especially susceptible to rust and bumpers are subjected to many harsh environments, such as snow, road salt, debris, etc. The chrome or paint covering of the bumper is meant to protect the steel from rusting, but these protective coatings are oftentimes compromised/breached by rock impingement, small impacts, or scratches. When these coatings are breached, rust forms very quickly, not only rapidly degrading the look of the truck, but over time, also compromising the integrity of the bumper itself (see
The bumper shells, including the soft elastomer interface and some systems including additional raised areas filled with elastomeric material can provide substantial protection against common damaging events such as rock impingement, scratches, and low speed impacts, prolonging the life span of the bumper in its pristine condition. Decorative films directly applied to the bumper provide some protection for very minor impacts, like light rock impingement, but is significantly lower protection than that provided by the bumper shell, due to its thicker substrate and elastomeric interface. In addition, directly applied wrap films cannot cover dents, punctures, or significant rust. Aftermarket bumper fascias provide greater protection than the films, but are often made of materials that are easily damaged themselves, such as fiber glass.
Since a new bumper is so expensive, in many cases, a damaged truck bumper is never replaced and the truck owner has had to accept the degradation of their trucks appearance. However, much like an old house with peeling paint or damaged exterior can look new again with the application of siding, the bumper shells provide a new decorative outside surface to a bumper that may have already sustained some minor dents, dings, scratches and/or the onset of rust. In addition, in many instances, unless severe structural damage and/or distortion of the bumper has already occurred, more substantial dents can be pounded back to near the original shape. A filler material such as used in the body repair industry can then be used to fill in the remaining depressions and filed/sanded to approximate the original surface. Now, a set of bumper shells can be applied to the damaged bumper in the same manner as explained previously for a new bumper. If the trim pieces have been damaged, they must be replaced. Although, the original surface will never look new again, when installation of the bumper shells is completed, the bumper will have a great new look as shown in
Unlike directly applied decorative film, the bumper shell of the present innovation will cover any remaining imperfections in the repair job and will serve to help protect the repaired bumper from new damage. (See
Thus, it is to be understood that variations and modifications can be made on the aforementioned structure without departing from the concepts of the present invention, and further it is to be understood that such concepts are intended to be covered by the following claims unless these claims by their language expressly state otherwise.
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